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ddftw.c
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ddftw.c
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/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/vfs.h>
#include <unistd.h>
#include "ddftw.h"
#include "common.h"
#include "extra-functions.h"
#include "bootloader.h"
#include "backstore.h"
#include "data.h"
struct dInfo tmp, sys, dat, boo, rec, cac, sdcext, sdcint, ase, sde, sp1, sp2, sp3, datdat;
char tw_device_name[20];
void dumpPartitionTable(void);
static int isMTDdevice = 0, isEMMCdevice = 0;
struct dInfo* findDeviceByLabel(const char* label)
{
if (!label) return NULL;
if (strcmp(label, "system") == 0) return &sys;
if (strcmp(label, "userdata") == 0) return &dat;
if (strcmp(label, "data") == 0) return &dat;
if (strcmp(label, "boot") == 0) return &boo;
if (strcmp(label, "recovery") == 0) return &rec;
if (strcmp(label, "cache") == 0) return &cac;
if (strcmp(label, "sd-ext") == 0) return &sde;
if (strcmp(label, "and-sec") == 0) return &ase;
if (strcmp(label, "datadata") == 0) {
DataManager_SetIntValue(TW_HAS_DATADATA, 1);
return &datdat;
}
// New sdcard methods
if (DataManager_GetIntValue(TW_HAS_INTERNAL) == 1) {
if (strcmp(label, DataManager_GetStrValue(TW_EXTERNAL_LABEL)) == 0) return &sdcext;
if (strcmp(label, DataManager_GetStrValue(TW_INTERNAL_LABEL)) == 0) return &sdcint;
if (strcmp(label, "sdcard") == 0) {
if (DataManager_GetIntValue(TW_USE_EXTERNAL_STORAGE) == 0) {
return &sdcint;
} else {
return &sdcext;
}
return 0;
}
} else
if (strcmp(label, DataManager_GetStrValue(TW_EXTERNAL_LABEL)) == 0) return &sdcext;
// Special Partitions (such as WiMAX, efs, and PDS)
if (strcmp(label, EXPAND(SP1_NAME)) == 0) return &sp1;
if (strcmp(label, EXPAND(SP2_NAME)) == 0) return &sp2;
if (strcmp(label, EXPAND(SP3_NAME)) == 0) return &sp3;
return NULL;
}
struct dInfo* findDeviceByBlockDevice(const char* blockDevice)
{
if (!blockDevice) return NULL;
if (strcmp(blockDevice, sys.blk) == 0) return &sys;
if (strcmp(blockDevice, dat.blk) == 0) return &dat;
if (strcmp(blockDevice, datdat.blk) == 0) {
DataManager_SetIntValue(TW_HAS_DATADATA, 1);
return &datdat;
}
if (strcmp(blockDevice, boo.blk) == 0) return &boo;
if (strcmp(blockDevice, rec.blk) == 0) return &rec;
if (strcmp(blockDevice, cac.blk) == 0) return &cac;
if (strcmp(blockDevice, sde.blk) == 0) return &sde;
if (strcmp(blockDevice, sdcext.blk) == 0) return &sdcext;
if (strcmp(blockDevice, sdcint.blk) == 0) return &sdcint;
if (strcmp(blockDevice, sp1.blk) == 0) return &sp1;
if (strcmp(blockDevice, sp2.blk) == 0) return &sp2;
if (strcmp(blockDevice, sp3.blk) == 0) return &sp3;
return NULL;
}
#define SAFE_STR(str) (str ? str : "<NULL>")
// This routine handles the case where we can't open either /proc/mtd or /proc/emmc
int setLocationData(const char* label, const char* blockDevice, const char* mtdDevice, const char* fstype, unsigned long long size)
{
struct dInfo* loc = NULL;
if (label) loc = findDeviceByLabel(label);
if (!loc && blockDevice) loc = findDeviceByBlockDevice(blockDevice);
if (!loc)
return -1;
if (blockDevice) strcpy(loc->blk, blockDevice);
if (label) strcpy(loc->mnt, label);
if (mtdDevice){
strcpy(loc->dev, mtdDevice);
loc->memory_type = mtd;
if (strcmp(loc->mnt, "data") == 0)
strcpy(loc->format_location, "userdata");
else
strcpy(loc->format_location, loc->mnt);
} else {
loc->memory_type = emmc;
strcpy(loc->format_location, loc->blk);
}
// This is a simple
if (strcmp(loc->mnt, "boot") == 0 && fstype)
{
loc->mountable = 0;
if (strcmp(fstype, "vfat") == 0 || memcmp(fstype, "ext", 3) == 0)
loc->mountable = 1;
}
if (fstype) strcpy(loc->fst, fstype);
if (size && loc->sze == 0) loc->sze = size;
return 0;
}
int getSizeViaDf(struct dInfo* mMnt)
{
FILE* fp;
char command[255], line[512];
int ret = 0, include_block = 1;
unsigned int min_len;
min_len = strlen(mMnt->blk) + 2;
sprintf(command, "df %s", mMnt->blk);
fp = __popen(command, "r");
if (fp == NULL)
return -1;
while (fgets(line, sizeof(line), fp) != NULL)
{
unsigned long blocks, used, available;
char device[64];
char tmpString[64];
if (strncmp(line, "Filesystem", 10) == 0)
continue;
if (strlen(line) < min_len) {
include_block = 0;
continue;
}
if (include_block) {
sscanf(line, "%s %lu %lu %lu", device, &blocks, &used, &available);
} else {
// The device block string is so long that the df information is on the next line
int space_count = 0;
while (tmpString[space_count] == 32)
space_count++;
sscanf(line + space_count, "%lu %lu %lu", &blocks, &used, &available);
}
// Adjust block size to byte size
unsigned long long size = blocks * 1024ULL;
sprintf(tmpString, "%s%s", tw_block, device);
setLocationData(NULL, mMnt->blk, NULL, NULL, size);
}
fclose(fp);
return 0;
}
int getSizesViaPartitions()
{
FILE* fp;
char line[512];
int ret = 0;
// In this case, we'll first get the partitions we care about (with labels)
fp = fopen("/proc/partitions", "rt");
if (fp == NULL)
return -1;
while (fgets(line, sizeof(line), fp) != NULL)
{
unsigned long major, minor, blocks;
char device[64];
char tmpString[64];
if (strlen(line) < 7 || line[0] == 'm') continue;
sscanf(line + 1, "%lu %lu %lu %s", &major, &minor, &blocks, device);
// Adjust block size to byte size
unsigned long long size = blocks * 1024ULL;
sprintf(tmpString, "%s%s", tw_block, device);
setLocationData(NULL, tmpString, NULL, NULL, size);
}
fclose(fp);
return 0;
}
int getLocationsViafstab()
{
FILE* fp;
char line[512];
int ret = 0;
// In this case, we'll first get the partitions we care about (with labels)
fp = fopen("/etc/recovery.fstab", "rt");
if (fp == NULL)
{
LOGE("=> Unable to open /etc/recovery.fstab\n");
return -1;
}
while (fgets(line, sizeof(line), fp) != NULL)
{
char mount[32], fstype[32], device[256];
char* pDevice = device;
if (line[0] != '/') continue;
sscanf(line + 1, "%s %s %s", mount, fstype, device);
// Attempt to flip mounts until we find the block device
char realDevice[256];
memset(realDevice, 0, sizeof(realDevice));
while (readlink(device, realDevice, sizeof(realDevice)) > 0)
{
strcpy(device, realDevice);
memset(realDevice, 0, sizeof(realDevice));
}
if (device[0] != '/') pDevice = NULL;
setLocationData(mount, pDevice, pDevice, fstype, 0);
}
fclose(fp);
// We can ignore the results of this call. But if it works, it at least helps get details
getSizesViaPartitions();
// Now, let's retrieve base partition sizes
if (isEMMCdevice)
{
fp = __popen("fdisk -l /dev/block/mmcblk0","r");
if (fp == NULL)
{
LOGE("=> Unable to retrieve partition sizes via fdisk\n");
return -1;
}
while (fgets(line, sizeof(line), fp) != NULL)
{
char isBoot[64], device[64], blocks[2][16], *pSizeBlock;
unsigned long long size = 0;
if (line[0] != '/') continue;
sscanf(line, "%s %s %*s %s %s", device, isBoot, blocks[0], blocks[1]);
if (isBoot[0] == '*') pSizeBlock = blocks[1];
else pSizeBlock = blocks[0];
// If the block size isn't accurate, don't record it.
if (pSizeBlock[strlen(pSizeBlock)-1] == '+') pSizeBlock = NULL;
// This could be NULL if we decided the size wasn't accurate
if (pSizeBlock)
{
size = ((unsigned long long) atol(pSizeBlock)) * 1024ULL;
}
if (size && (setLocationData(NULL, device, NULL, NULL, size) == 0))
{
// LOGI(" Mount %s size: %d\n", device, size);
}
}
fclose(fp);
}
return ret;
}
// get locations from our device.info
int getLocationsViaProc(const char* fstype)
{
FILE *fp = NULL;
char line[255];
if (fstype == NULL)
{
LOGE("Invalid argument to getLocationsViaProc\n");
return -1;
}
sprintf(line, "/proc/%s", fstype);
fp = fopen(line, "rt");
if (fp == NULL)
{
LOGW("Device does not support %s\n", line);
return -1;
}
while (fgets(line, sizeof(line), fp) != NULL)
{
char device[32], label[32];
unsigned long size = 0;
char mtdDevice[32];
char* fstype = NULL;
int deviceId;
sscanf(line, "%s %lx %*s %*c%s", device, &size, label);
// Skip header and blank lines
if ((strcmp(device, "dev:") == 0) || (strlen(line) < 8))
continue;
// Strip off the : and " from the details
device[strlen(device)-1] = '\0';
label[strlen(label)-1] = '\0';
if (sscanf(device,"mtd%d", &deviceId) == 1)
{
isMTDdevice = 1;
sprintf(mtdDevice, "%s%s", tw_mtd, device);
sprintf(device, "%smtdblock%d", tw_block, deviceId);
strcpy(tmp.fst,"mtd");
fstype = "mtd";
}
else
{
isEMMCdevice = 1;
strcpy(mtdDevice, device);
fstype = "emmc";
}
if (strcmp(label, "efs") == 0)
fstype = "yaffs2";
setLocationData(label, device, mtdDevice, fstype, (unsigned long long) size);
}
fclose(fp);
// We still proceed on to use the fstab to query devices as well
return getLocationsViafstab();
}
unsigned long long getUsedSizeViaDu(const char* path)
{
char cmd[512];
sprintf(cmd, "du -sk %s | awk '{ print $1 }'", path);
FILE *fp;
fp = __popen(cmd, "r");
char str[512];
fgets(str, sizeof(str), fp);
__pclose(fp);
unsigned long long size = atol(str);
size *= 1024ULL;
return size;
}
void updateMntUsedSize(struct dInfo* mMnt)
{
char path[512];
if (strcmp(mMnt->mnt, ".android_secure") == 0)
{
// android_secure is a little different - we mount sdcard and use du to figure out how much space is being taken up by android_secure
if (DataManager_GetIntValue(TW_HAS_INTERNAL)) {
// We can ignore any error from this, it doesn't matter
tw_mount(sdcint);
} else {
// We can ignore any error from this, it doesn't matter
tw_mount(sdcext);
}
mMnt->used = getUsedSizeViaDu(mMnt->dev);
mMnt->sze = mMnt->used;
mMnt->bsze = mMnt->used;
return;
}
struct statfs st;
int mounted;
if (!mMnt->mountable)
{
// Since this partition isn't mountable, we're going to mark it's used size as it's standard size
mMnt->used = mMnt->sze;
mMnt->bsze = mMnt->used;
return;
}
mounted = tw_isMounted(*mMnt);
if (!mounted)
{
// If we fail, just move on
if (tw_mount(*mMnt))
return;
}
if (mMnt->sze == 0) // We weren't able to get the size earlier, try another method
getSizeViaDf(mMnt);
sprintf(path, "/%s/.", mMnt->mnt);
if (statfs(path, &st) != 0)
{
if (strncmp(path, "/sd-ext", 7) == 0)
return;
if (DataManager_GetIntValue(TW_HAS_DUAL_STORAGE)) {
char external_mount_point[255];
memset(external_mount_point, 0, sizeof(external_mount_point));
sprintf(external_mount_point, "/%s/.", DataManager_GetStrValue(TW_EXTERNAL_PATH));
if (strcmp(path, external_mount_point) == 0)
return; // This prevents an error from showing on devices that have internal and external storage, but there is no sdcard installed.
}
LOGE("Unable to stat '%s'\n", path);
return;
}
mMnt->used = ((st.f_blocks - st.f_bfree) * st.f_bsize);
if (DataManager_GetIntValue(TW_HAS_DATA_MEDIA) == 1 && strcmp(mMnt->blk, dat.blk) == 0) {
LOGI("Device has /data/media\n");
unsigned long long data_used, data_media_used, actual_data;
data_used = getUsedSizeViaDu("/data/");
LOGI("Total used space on /data is: %llu\n", data_used);
data_media_used = getUsedSizeViaDu("/data/media/");
LOGI("Total in /data/media is: %llu\n", data_media_used);
actual_data = data_used - data_media_used;
LOGI("Actual data used: %llu\n", actual_data);
mMnt->bsze = actual_data;
} else
mMnt->bsze = mMnt->used;
if (!mounted) tw_unmount(*mMnt);
return;
}
void updateUsedSized()
{
updateMntUsedSize(&boo);
updateMntUsedSize(&sys);
updateMntUsedSize(&dat);
if (DataManager_GetIntValue(TW_HAS_DATADATA) == 1)
updateMntUsedSize(&datdat);
updateMntUsedSize(&cac);
updateMntUsedSize(&rec);
updateMntUsedSize(&sdcext);
updateMntUsedSize(&sdcint);
updateMntUsedSize(&sde);
updateMntUsedSize(&ase);
updateMntUsedSize(&sp1);
updateMntUsedSize(&sp2);
updateMntUsedSize(&sp3);
if (rec.used == 0 && rec.sze == 0) {
DataManager_SetIntValue(TW_HAS_RECOVERY_PARTITION, 0);
DataManager_SetIntValue(TW_BACKUP_RECOVERY_VAR, 0);
} else
DataManager_SetIntValue(TW_HAS_RECOVERY_PARTITION, 1);
if (sde.used == 0 && sde.sze == 0) {
DataManager_SetIntValue(TW_HAS_SDEXT_PARTITION, 0);
DataManager_SetIntValue(TW_BACKUP_SDEXT_VAR, 0);
} else
DataManager_SetIntValue(TW_HAS_SDEXT_PARTITION, 1);
if (ase.used == 0 && ase.sze == 0) {
DataManager_SetIntValue(TW_HAS_ANDROID_SECURE, 0);
DataManager_SetIntValue(TW_BACKUP_ANDSEC_VAR, 0);
} else
DataManager_SetIntValue(TW_HAS_ANDROID_SECURE, 1);
// Store sizes in data manager for GUI in MB
DataManager_SetIntValue(TW_BACKUP_SYSTEM_SIZE, (int)(sys.bsze / 1048576LLU));
if (DataManager_GetIntValue(TW_HAS_DATADATA) == 1)
DataManager_SetIntValue(TW_BACKUP_DATA_SIZE, (int)(dat.bsze / 1048576LLU) + (int)(datdat.bsze / 1048576LLU));
else
DataManager_SetIntValue(TW_BACKUP_DATA_SIZE, (int)(dat.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_BOOT_SIZE, (int)(boo.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_RECOVERY_SIZE, (int)(rec.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_CACHE_SIZE, (int)(cac.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_ANDSEC_SIZE, (int)(ase.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_SDEXT_SIZE, (int)(sde.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_SP1_SIZE, (int)(sp1.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_SP2_SIZE, (int)(sp2.bsze / 1048576LLU));
DataManager_SetIntValue(TW_BACKUP_SP3_SIZE, (int)(sp3.bsze / 1048576LLU));
if (DataManager_GetIntValue(TW_USE_EXTERNAL_STORAGE) == 1)
DataManager_SetIntValue(TW_STORAGE_FREE_SIZE, (int)((sdcext.sze - sdcext.used) / 1048576LLU));
else if (DataManager_GetIntValue(TW_HAS_DATA_MEDIA) == 1)
DataManager_SetIntValue(TW_STORAGE_FREE_SIZE, (int)((dat.sze - dat.used) / 1048576LLU));
else
DataManager_SetIntValue(TW_STORAGE_FREE_SIZE, (int)((sdcint.sze - sdcint.used) / 1048576LLU));
dumpPartitionTable();
return;
}
void listMntInfo(struct dInfo* mMnt, char* variable_name)
{
LOGI("%s information:\n mnt: '%s'\n blk: '%s'\n dev: '%s'\n fst: '%s'\n fnm: '%s'\n format location: '%s'\n mountable: %i\n backup method: %i\n memory type: %i\n\n", variable_name, mMnt->mnt, mMnt->blk, mMnt->dev, mMnt->fst, mMnt->fnm, mMnt->format_location, mMnt->mountable, mMnt->backup, mMnt->memory_type);
}
void update_system_details()
{
ui_print(" * Verifying filesystems...\n");
createFstab();
ui_print(" * Verifying partition sizes...\n");
updateUsedSized();
}
int getLocations()
{
// This decides if a partition can be mounted and appears in the fstab
sys.mountable = 1;
dat.mountable = 1;
datdat.mountable = 1;
cac.mountable = 1;
sde.mountable = 1;
// boo.mountable = 1; // Boot is detected earlier
rec.mountable = 0;
sdcext.mountable = 1;
sdcint.mountable = 1;
ase.mountable = 0;
sp1.mountable = SP1_MOUNTABLE;
sp2.mountable = SP2_MOUNTABLE;
sp3.mountable = SP3_MOUNTABLE;
sys.is_sub_partition = 0;
dat.is_sub_partition = 0;
datdat.is_sub_partition = 1;
cac.is_sub_partition = 0;
sde.is_sub_partition = 0;
boo.is_sub_partition = 0;
rec.is_sub_partition = 0;
sdcext.is_sub_partition = 0;
sdcint.is_sub_partition = 0;
ase.is_sub_partition = 0;
sp1.is_sub_partition = 0;
sp2.is_sub_partition = 0;
sp3.is_sub_partition = 0;
// This decides how we backup/restore a block
sys.backup = files;
dat.backup = files;
datdat.backup = files;
cac.backup = files;
sde.backup = files;
boo.backup = image;
rec.backup = image;
sdcext.backup = none;
sdcint.backup = none;
ase.backup = files;
sp1.backup = SP1_BACKUP_METHOD;
sp2.backup = SP2_BACKUP_METHOD;
sp3.backup = SP3_BACKUP_METHOD;
if (getLocationsViaProc("emmc") != 0 && getLocationsViaProc("mtd") != 0 && getLocationsViafstab() != 0)
{
LOGE("E: Unable to get device locations.\n");
return -1;
}
// Handle .android_secure
char path[255];
if (DataManager_GetIntValue(TW_HAS_INTERNAL)) {
sprintf(ase.dev, "%s/.android_secure", DataManager_GetSettingsStoragePath());
strcpy(ase.blk, DataManager_GetSettingsStoragePath());
} else {
sprintf(ase.dev, "%s/.android_secure", DataManager_GetStrValue(TW_EXTERNAL_PATH));
strcpy(ase.blk, DataManager_GetStrValue(TW_EXTERNAL_PATH));
}
strcpy(ase.mnt, ".android_secure");
strcpy(ase.fst, "vfat");
if (strlen(sdcext.blk) > 0)
{
int tmpInt;
char tmpBase[50];
char tmpWildCard[50];
// We make the base via sdcard block
strcpy(sde.mnt, "sd-ext");
strcpy(tmpBase, sdcext.blk);
tmpBase[strlen(tmpBase)-1] = '\0';
sprintf(tmpWildCard,"%s%%d",tmpBase);
sscanf(sdcext.blk, tmpWildCard, &tmpInt); // sdcard block used as sd-ext base
sprintf(sde.blk, "%s%d",tmpBase, tmpInt+1);
}
get_device_id();
update_system_details();
// Now, let's update the data manager...
DataManager_SetIntValue("tw_boot_is_mountable", boo.mountable ? 1 : 0);
DataManager_SetIntValue("tw_system_is_mountable", sys.mountable ? 1 : 0);
DataManager_SetIntValue("tw_data_is_mountable", dat.mountable ? 1 : 0);
DataManager_SetIntValue("tw_cache_is_mountable", cac.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sdcext_is_mountable", sdcext.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sdcint_is_mountable", sdcint.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sd-ext_is_mountable", sde.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sp1_is_mountable", sp1.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sp2_is_mountable", sp2.mountable ? 1 : 0);
DataManager_SetIntValue("tw_sp3_is_mountable", sp3.mountable ? 1 : 0);
listMntInfo(&boo, "boot");
listMntInfo(&sys, "system");
listMntInfo(&dat, "data");
if (DataManager_GetIntValue(TW_HAS_DATADATA) == 1)
listMntInfo(&datdat, "datadata");
listMntInfo(&cac, "cache");
listMntInfo(&rec, "recovery");
listMntInfo(&sdcext, "sdcext");
listMntInfo(&sdcint, "sdcint");
listMntInfo(&sde, "sd-ext");
listMntInfo(&ase, "android_secure");
listMntInfo(&sp1, "special 1");
listMntInfo(&sp2, "special 2");
listMntInfo(&sp3, "special 3");
return 0;
}
static void createFstabEntry(FILE* fp, struct dInfo* mnt)
{
char tmpString[255];
struct stat st;
if (!*(mnt->blk))
{
mnt->mountable = 0;
return;
}
sprintf(tmpString,"%s /%s %s rw\n", mnt->blk, mnt->mnt, mnt->fst);
fputs(tmpString, fp);
sprintf(tmpString, "/%s", mnt->mnt);
// We only create the folder if the block device exists
if (stat(mnt->blk, &st) == 0 && stat(tmpString, &st) != 0)
{
if (mkdir(tmpString, 0777) == -1)
LOGI("=> Can not create %s folder.\n", tmpString);
else
LOGI("=> Created %s folder.\n", tmpString);
}
return;
}
void verifyFst()
{
FILE *fp;
char blkOutput[255];
char* blk;
char* arg;
char* ptr;
struct dInfo* dat;
// This has a tendency to hang on MTD devices.
if (isMTDdevice) return;
LOGI("=> Let's update filesystem types via verifyFst aka blkid.\n");
fp = __popen("blkid","r");
while (fgets(blkOutput, sizeof(blkOutput), fp) != NULL)
{
blk = blkOutput;
ptr = blkOutput;
while (*ptr > 32 && *ptr != ':') ptr++;
if (*ptr == 0) continue;
*ptr = 0;
// Increment by two, but verify that we don't hit a NULL
ptr++;
if (*ptr != 0) ptr++;
// Now, find the TYPE field
while (1)
{
arg = ptr;
while (*ptr > 32) ptr++;
if (*ptr != 0)
{
*ptr = 0;
ptr++;
}
if (strlen(arg) > 6)
{
if (memcmp(arg, "TYPE=\"", 6) == 0) break;
}
if (*ptr == 0)
{
arg = NULL;
break;
}
}
if (arg && strlen(arg) > 7)
{
arg += 6; // Skip the TYPE=" portion
arg[strlen(arg)-1] = '\0'; // Drop the tail quote
}
else
continue;
dat = findDeviceByBlockDevice(blk);
if (dat && strcmp(dat->fst, arg) != 0) {
LOGI("'%s' was '%s' now set to '%s'\n", dat->mnt, dat->fst, arg);
strcpy(dat->fst,arg);
}
}
__pclose(fp);
}
// write fstab so we can mount in adb shell
void createFstab()
{
FILE *fp;
fp = fopen("/etc/fstab", "w");
if (fp == NULL)
LOGI("=> Can not open /etc/fstab.\n");
else
{
verifyFst();
if (boo.mountable) createFstabEntry(fp, &boo);
if (sys.mountable) createFstabEntry(fp, &sys);
if (dat.mountable) createFstabEntry(fp, &dat);
if (DataManager_GetIntValue(TW_HAS_DATADATA) == 1)
createFstabEntry(fp, &datdat);
if (cac.mountable) createFstabEntry(fp, &cac);
if (sdcext.mountable) createFstabEntry(fp, &sdcext);
if (sdcint.mountable) createFstabEntry(fp, &sdcint);
if (sde.mountable) createFstabEntry(fp, &sde);
if (sp1.mountable) createFstabEntry(fp, &sp1);
if (sp2.mountable) createFstabEntry(fp, &sp2);
if (sp3.mountable) createFstabEntry(fp, &sp3);
}
fclose(fp);
}
char backupToChar(enum backup_method method)
{
switch (method)
{
case unknown:
default:
return 'u';
case none:
return 'n';
case image:
return 'i';
case files:
return 'f';
}
return 'u';
}
void dumpPartitionEntry(struct dInfo* mnt)
{
char* mntName = mnt->mnt;
if (strcmp(mntName, ".android_secure") == 0) mntName = (char*) "andsec";
fprintf(stderr, "| %8s | %27s | %6s | %8lu | %8lu | %d | %c |\n",
mntName, mnt->blk, mnt->fst, (unsigned long) (mnt->sze / 1024), (unsigned long) (mnt->used / 1024), mnt->mountable ? 1 : 0,
backupToChar(mnt->backup));
}
void dumpPartitionTable(void)
{
fprintf(stderr, "+----------+-----------------------------+--------+----------+----------+---+---+\n");
fprintf(stderr, "| Mount | Block Device | fst | Size(KB) | Used(KB) | M | B |\n");
fprintf(stderr, "+----------+-----------------------------+--------+----------+----------+---+---+\n");
dumpPartitionEntry(&tmp);
dumpPartitionEntry(&sys);
dumpPartitionEntry(&dat);
if (DataManager_GetIntValue(TW_HAS_DATADATA) == 1)
dumpPartitionEntry(&datdat);
dumpPartitionEntry(&boo);
dumpPartitionEntry(&rec);
dumpPartitionEntry(&cac);
dumpPartitionEntry(&sdcext);
dumpPartitionEntry(&sdcint);
dumpPartitionEntry(&ase);
dumpPartitionEntry(&sde);
dumpPartitionEntry(&sp1);
dumpPartitionEntry(&sp2);
dumpPartitionEntry(&sp3);
fprintf(stderr, "+----------+-----------------------------+--------+----------+----------+---+---+\n");
}